// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.

import 'package:analysis_server/src/services/correction/status.dart';
import 'package:analysis_server/src/services/refactoring/legacy/refactoring.dart';
import 'package:analysis_server/src/services/search/search_engine.dart';
import 'package:analysis_server/src/services/search/search_engine_internal.dart';
import 'package:analyzer/source/source_range.dart';
import 'package:analyzer_plugin/protocol/protocol_common.dart'
    show RefactoringProblemSeverity, SourceChange, SourceEdit;
import 'package:test/test.dart';

import '../../../abstract_single_unit.dart';

export 'package:analyzer/src/test_utilities/package_config_file_builder.dart';

int findIdentifierLength(String search) {
  var length = 0;
  while (length < search.length) {
    var c = search.codeUnitAt(length);
    if (!(c >= 'a'.codeUnitAt(0) && c <= 'z'.codeUnitAt(0) ||
        c >= 'A'.codeUnitAt(0) && c <= 'Z'.codeUnitAt(0) ||
        c >= '0'.codeUnitAt(0) && c <= '9'.codeUnitAt(0))) {
      break;
    }
    length++;
  }
  return length;
}

/// The base class for all [Refactoring] tests.
abstract class RefactoringTest extends AbstractSingleUnitTest {
  late RefactoringWorkspace refactoringWorkspace;
  late SearchEngine searchEngine;

  late SourceChange refactoringChange;

  Refactoring get refactoring;

  /// Asserts that [refactoringChange] contains a [FileEdit] for the file
  /// with the given [path], and it results the [expectedCode].
  void assertFileChangeResult(String path, String expectedCode) {
    expectedCode = normalizeSource(expectedCode);
    // prepare FileEdit
    var fileEdit = refactoringChange.getFileEdit(convertPath(path));
    if (fileEdit == null) {
      fail('No file edit for $path');
    }
    // validate resulting code
    var file = getFile(path);
    var ini = file.readAsStringSync();
    var actualCode = SourceEdit.applySequence(ini, fileEdit.edits);
    expect(actualCode, expectedCode);
  }

  /// Asserts that [refactoringChange] does not contain a [FileEdit] for the
  /// file with the given [path].
  void assertNoFileChange(String path) {
    var fileEdit = refactoringChange.getFileEdit(path);
    expect(fileEdit, isNull);
  }

  /// Asserts that [refactoring] initial/final conditions status is OK.
  Future<void> assertRefactoringConditionsOK() async {
    var status = await refactoring.checkInitialConditions();
    assertRefactoringStatusOK(status);
    status = await refactoring.checkFinalConditions();
    assertRefactoringStatusOK(status);
  }

  /// Asserts that [refactoring] final conditions status is OK.
  Future<void> assertRefactoringFinalConditionsOK() async {
    var status = await refactoring.checkFinalConditions();
    assertRefactoringStatusOK(status);
  }

  /// Asserts that [status] has expected severity and message.
  void assertRefactoringStatus(
      RefactoringStatus status, RefactoringProblemSeverity? expectedSeverity,
      {String? expectedMessage,
      SourceRange? expectedContextRange,
      String? expectedContextSearch}) {
    expect(status.severity, expectedSeverity, reason: status.toString());
    if (expectedSeverity != null) {
      var problem = status.problem!;
      expect(problem.severity, expectedSeverity);
      if (expectedMessage != null) {
        expect(problem.message, expectedMessage);
      }
      if (expectedContextRange != null) {
        var location = problem.location!;
        expect(location.offset, expectedContextRange.offset);
        expect(location.length, expectedContextRange.length);
      }
      if (expectedContextSearch != null) {
        var location = problem.location!;
        var expectedOffset = findOffset(expectedContextSearch);
        var expectedLength = findIdentifierLength(expectedContextSearch);
        expect(location.offset, expectedOffset);
        expect(location.length, expectedLength);
      }
    }
  }

  /// Asserts that [refactoring] status is OK.
  void assertRefactoringStatusOK(RefactoringStatus status) {
    assertRefactoringStatus(status, null);
  }

  /// Checks that all conditions of [refactoring] are OK and the result of
  /// applying the [Change] to [testUnit] is [expectedCode].
  Future<void> assertSuccessfulRefactoring(String expectedCode) async {
    await assertRefactoringConditionsOK();
    var change = await refactoring.createChange();
    refactoringChange = change;
    assertTestChangeResult(expectedCode);
  }

  /// Checks that all conditions of [refactoring] are OK, and the computed
  /// [SourceChange] matches the expectations.
  Future<void> assertSuccessfulRefactoring2(String expected) async {
    await assertRefactoringConditionsOK();
    final change = await refactoring.createChange();
    assertSourceChange(change, expected);
  }

  /// Asserts that [refactoringChange] contains a [FileEdit] for [testFile], and
  /// it results the [expectedCode].
  void assertTestChangeResult(String expectedCode) {
    expectedCode = normalizeSource(expectedCode);
    // prepare FileEdit
    var fileEdit = refactoringChange.getFileEdit(testFile.path);
    if (fileEdit == null) {
      fail('No file edit for $testFile');
    }
    // validate resulting code
    var actualCode = SourceEdit.applySequence(testCode, fileEdit.edits);
    if (actualCode != expectedCode) {
      print(actualCode);
    }
    expect(actualCode, expectedCode);
  }

  Future<void> indexTestUnit(String code) async {
    await resolveTestCode(code);
  }

  Future<void> indexUnit(String file, String code) async {
    newFile(file, code);
  }

  @override
  void verifyCreatedCollection() {
    super.verifyCreatedCollection();
    // TODO(dantup): Get these tests passing with either line ending and change this to true.
    useLineEndingsForPlatform = false;
    final drivers = [driverFor(testFile)];
    searchEngine = SearchEngineImpl(drivers);
    refactoringWorkspace = RefactoringWorkspace(drivers, searchEngine);
  }
}
